A polymerization device that includes: a reaction vessel that houses a polymerization solution and in which a polymerization reaction is performed; a stirring blade that stirs the polymerization solution housed in the reaction vessel; a plurality of heat transfer pipes that transfer heat to the polymerization solution in order to start the polymerization reaction and cause the polymerization reaction to proceed, and that remove, from the polymerization solution, heat generated by the polymerization reaction; and a baffle arranged between a vessel wall of the reaction vessel and the heat transfer pipes.

A nail polish creator is provided. The nail polish creator may include a processor that can receive a selection of the nail polish color from a device communicatively linked with the nail polish creator, such as via a wireless communication. Once the selection is received, the processor may determine an amount of one or more nail polish colors that are needed to create a nail polish corresponding to the selection. The nail polish creator may further include an assembly that may receive a nail polish bottle so that the nail polish bottle is in a position to receive the nail polish that is created based on the amount of the nail polish colors needed to create the nail polish. Moreover, the nail polish creator may include a mixer assembly for mixing the nail polish in the nail polish bottle.

An object of the present invention is to provide a novel solid phase peptide synthesis method for synthesizing a large amount of a peptide. Another object of the present invention is to provide a novel solid phase peptide synthesis method for synthesizing a high-purity long-chain peptide. Still another object of the present invention is to provide a novel solid phase peptide synthesis method causing fewer side reactions. The present invention relates to a method for producing a peptide, and the method comprises solid-phase synthesis of a peptide under stirring with a centrifugal stirrer having no impeller.

A polymerization device that includes: a reaction vessel that houses a polymerization solution and in which a polymerization reaction is performed; a stirring blade that stirs the polymerization solution housed in the reaction vessel; a plurality of heat transfer pipes that transfer heat to the polymerization solution in order to start the polymerization reaction and cause the polymerization reaction to proceed, and that remove, from the polymerization solution, heat generated by the polymerization reaction; and a baffle arranged between a vessel wall of the reaction vessel and the heat transfer pipes.

A stand mixer includes a motor output shaft and a locking planetary output. The locking planetary output has a center shaft operably connected with the output shaft for driven rotation about a fixed axis, an agitator shaft mounted to the center shaft such that the agitator shaft moves around the fixed axis of the center shaft in a planetary arrangement, and a planetary gear centrally arranged about the fixed axis of the center shaft. A gear unit is rotatably fixed on the agitator shaft and is slidably mounted therewith to be moveable between a first position, in which the gear unit is engaged with the planetary gear, and a second position in which the gear unit is disengaged from the planetary gear and is engaged with a locking member.

A manual mixer serves to facilitate mixing and agitating materials for use during surgery. The manual mixer includes a mixing assembly and an actuation assembly for actuating the mixing assembly. The mixing assembly includes at least a paddle portion and a plunger portion. The plunger portion is simultaneously capable of rotational movement with the paddle portion and movement upwardly or downwardly along the paddle portion. Rotation of the paddle portion serves to facilitate mixing and agitating of the materials, and downward movement of the plunger portion serves to facilitate dispensing of the materials from the manual mixer.

A manual mixer serves to facilitate mixing and agitating materials for use during surgery. The manual mixer includes a mixing assembly and an actuation assembly for actuating the mixing assembly. The mixing assembly includes at least a paddle portion and a plunger portion. The plunger portion is simultaneously capable of rotational movement with the paddle portion and movement upwardly or downwardly along the paddle portion. Rotation of the paddle portion serves to facilitate mixing and agitating of the materials, and downward movement of the plunger portion serves to facilitate dispensing of the materials from the manual mixer.

An electrically controlled mixing and blending apparatus featuring high corrosion resistance and mixing efficiency includes a housing, a first bearing engaged to both sides of the housing, and the interior of both first bearings being coupled to a first rotating shaft, a second bearing engaged to a surface at the middle of the first rotating shaft and the interior of the second bearing being engaged to a surface of an output shaft of a first motor output shaft. Both sides of the first motor are fixedly coupled to a surface of the first rotating shaft through a first fixed rod. A gear drives the first motor, a blending rod and a stirring rack to swing in the front-rear direction through the first rotating shaft to increase the turbulence of the liquid raw materials, reduce the time required for mixing raw materials, and improve the production efficiency.

The present process is directed to a solvent-free process of expanding expandable polymeric hollow, fluid-filled microspheres.

A resin container is configured to provide a photocurable resin to a three dimensional printing system. The three dimensional printing system includes a receptacle configured to provide the resin to a print engine. The resin container includes a housing enclosing an internal reservoir which contains an impeller. The resin container has a leading end and a trailing end relative to a direction of insertion or installation of the resin container into the receptacle. The leading end includes a fluid outlet extending downwardly from a first lateral location, an electrical connector extending downwardly from a second location, and a gear coupled to the impeller and extending downwardly from a third lateral location.